Hydraulic energy storage with reinforced layer

ABSTRACT

In one aspect of the present invention, a system for performing work has a hydraulic circuit adapted to store energy within a hose. The hose has an elastic inner layer pre-tensioned by a radial tensioning component disposed within the hose and at least one reinforcing layer of elastic thread disposed around and compressing the inner layer. A hydraulic fluid is in the circuit and in communication with the hose, the radial tensioning component and with a hydraulic actuator for doing the work. The circuit has a mechanism for pressurizing the hydraulic circuit in order to perform the work.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation-in-part of U.S. patent applicationSer. No. 11/837,383 filed on Aug. 10, 2007 now U.S. Pat. No. 7,677,036which was a continuation-in-part of U.S. patent application Ser. No.11/829,732 which was filed on Jul. 27, 2007 now abandoned and entitledExpandable Vehicle Frame. U.S. patent application Ser. No. 11/829,732 isa continuation-in-part of U.S. patent application Ser. No. 11/773,561which was filed on Jul. 5, 2007 now U.S. Pat. No. 7,891,453 and entitledEnergy Storage in an Elastic Vessel. U.S. patent application Ser. No.11/773,561 is a continuation-in-part of U.S. patent application Ser. No.11/772,334 which was filed on Jul. 2, 2007 now U.S. Pat. No. 7,600,376and entitled Energy Storage. This application is inhere incorporated byreference for all that is discloses.

BACKGROUND OF THE INVENTION

The current invention relates to hydraulic systems for performing work.Hydraulic systems are used in many different applications such asautomobiles, trucks, construction equipment, elevators, submarines, andmany others. Hydraulic systems may be used to improve such areas as fuelefficiency and power output of mechanical systems which require energyto perform various forms of work, such as lifting payloads, propellingvehicles, or raising elevators. In some applications, it may be desirousto have energy storage in the hydraulic system to provide extra energywhen needed.

In hydraulic circuits, hydraulic accumulators have been used to storeexcess hydraulic fluid. These hydraulic accumulators may comprise anelastic bladder within a rigid chamber. A compressible medium such as agas may be disposed within the chamber outside of the elastic bladder,while the hydraulic fluid may be disposed within the elastic bladder.When the volume of hydraulic fluid in the bladder increases, the bladdercompresses against the compressible medium thereby generating apotential energy within the rigid chamber which is stored outside of theelastic bladder.

U.S. Pat. No. 6,807,988 to Powell et al., which is herein incorporatedby reference for all that it contains discloses a flexible hose adaptedconstruction for conveying fluids under pressure. The constructionincludes a core tube having a circumferential inner core tube surface. Afirst reinforcement layer surrounds the outer core tube surface, and isformed of one or more filaments of a first fiber. A second fiberreinforcement layer surrounds the first reinforcement layer, and isformed of one or more filaments of a second fiber. The first and secondreinforcement layers are bonded together by means of a bonding agentsuch as an adhesive, resin, plasticizer, tackifier, or solvent, theapplication of which is controlled to wet on a portion of the filamentsof the reinforcement layers.

U.S. Pat. No. 5,042,532 to Gilleland, which is herein incorporated byreference for all that it contains discloses a pipeline repair and leaksealing system effected by unrolling a tube, using an inflatable mandreldisposed inside the tube, to radially expand a stretchable andcircumferentially continuous gasket or sealant sleeve into flush contactwith the pipeline interior. Before actuation, the tube is constrained ina rolled-up condition by a shrink-wrap sleeve of plastic film that maybe sealed at its ends to an interior film sleeve in order to protect thetube against moisture. When fully expanded, the tube includeslongitudinally-extending edges that overlap and are secured together byadhesive issued from a rupturable package disposed proximate one of theedges so as to be caused to burst as the edges approach overlappedpositions. An outer sleeve of scrim material surrounds the tacky orgum-like gasket sleeve to facilitate handling and movement of theassembly in the pipeline. When the tube and gasket sleeve are expanded,the scrim material becomes embedded in the tacky gasket sleeve materialwhich thereby protrudes through the scrim interstices to assure propersealing and compression of the gasket sleeve against the pipelineinterior wall.

U.S. Pat. No. 4,733,603 to Kukolj, which is herein incorporated byreference for all that it contains discloses an actuator that has afirst connection point and a second connection point at opposite endsand is contractible along an axis extending between the connectionspoints. The actuator has at least one hollow enclosure with an openingfor admitting a pressurized fluid. A simultaneously radially expandable,axially contractible constraining means cooperates with the enclosure.The constraining means converts radial expansion of the actuator intoaxial contraction when pressurized fluid is admitted into the enclosure.In a preferred form, the constraining means comprises a network ofnon-stretchable, flexible tension links.

BRIEF SUMMARY OF THE INVENTION

In one aspect of the present invention, a system for performing work hasa hydraulic circuit adapted to store energy within a hose. The hose hasan elastic inner layer pre-tensioned by a radial tensioning componentdisposed within the hose and at least one reinforcing layer of elasticthread disposed around and compressing the inner layer. A hydraulicfluid is in the circuit and in communication with the hose, the radialtensioning component and a hydraulic actuator for doing the work. Thecircuit has a mechanism for pressurizing the hydraulic circuit in orderto perform the work.

In some embodiments, the at least one reinforcing layer of elasticthread may comprise a total thickness of the thread. The at least onereinforcing layer of elastic thread may comprise a total thickness often times the thickness of the thread. The elastic thread may bebraided, interwoven, wrapped and/or combinations thereof. The elasticthread may have a modulus of elasticity of rubber. The at least onereinforcing layer may comprise a material selected from the groupconsisting of composite material, polyurethane, polyethylene, rubber,synthetic polymers, chloroprene, elastomers, silicone rubber, rubberfoam, or a combination thereof.

The inner layer may comprise a material selected from the groupconsisting of composite material, Kevlar, polyurethane, polyethylene,Twaron, aramid fiber, nylon, rubber, carbon, synthetic polymers,chloroprene, elastomers, polyester, silicone rubber, rubber foam, carbonfiber, glass fiber, cloth or a combination thereof.

The radial tensioning component may be segmented. The radial tensioningcomponent may comprise a perforated pipe. The radial tensioningcomponent may comprise a spring, a frame, or combinations thereof.

The hose and radial tensioning component may be enclosed within a lowpressure reservoir of the hydraulic circuit. The hose may have an outerdiameter of 0.9 to 1.75 inches.

The hydraulic circuit may be adapted to store at least 50 foot pounds ofenergy within the hose. A material of the hose may store at least 85% ofthe energy. The hydraulic fluid may be compressible and at least 10% ofthe energy may be stored in the hydraulic fluid. A compressible elementmay be disposed within the hose and at least 15% of the energy may bestored in the compressible element.

The hose may be inflated with hydraulic fluid to over 1,000 psi. Thehose may be inflated with hydraulic fluid to over 6,000 psi.

The system may be incorporated in an automobile, golf cart, a truck, anelevator, backhoe, bulldozer, trencher, milling machine, a boat,construction equipment, or a combination thereof.

In one aspect of the present invention, a hose for storing energy maycomprise an elastic inner layer pre-tensioned by a radial tensioningcomponent disposed within the hose and at least one reinforcing layer ofelastic thread disposed around and compressing the inner layer. Ahydraulic fluid may be in communication with the hose and with theradial tensioning component.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective diagram of an embodiment of an automobile.

FIG. 2 is a cross-sectional diagram of an embodiment of a system forperforming work.

FIG. 3 is a cross-sectional diagram of another embodiment of a systemfor performing work.

FIG. 4 is a perspective cross-sectional diagram of an embodiment of ahose.

FIG. 5 is a perspective cross-sectional diagram of another embodiment ofa hose.

FIG. 6 is a perspective cross-sectional diagram of another embodiment ofa hose.

FIG. 7 is a perspective cross-sectional diagram of another embodiment ofa hose.

FIG. 8 is a perspective cross-sectional diagram of another embodiment ofa hose.

FIG. 9 is a cross-sectional diagram of another embodiment of a systemfor performing work.

FIG. 10 is a cross-sectional diagram of another embodiment of a systemfor performing work.

FIG. 11 is a cross-sectional diagram of another embodiment of anautomobile.

FIG. 12 is a perspective diagram of another embodiment of an automobile.

DETAILED DESCRIPTION OF THE INVENTION AND THE PREFERRED EMBODIMENT

The current invention may be incorporated into a vehicle 100 such as anautomobile, as in the embodiment of FIG. 1. The vehicle may comprise aframe 108, an engine 107, translation assemblies 103, a hydraulic pump104, a plurality of manifolds 102, and a hose assembly 101. The hoseassembly 101 may be in communication with the plurality of manifolds102. The manifolds 102 may be disposed proximate the translationassemblies. The translation assemblies 103 may be in mechanicalcommunication with individual hydraulic actuators disposed within themanifolds 102. When the vehicle 100 brakes, energy may be captured andstored in the hose assembly 101. The hydraulic pump 104 may be incommunication 110 with the engine 107 and the hose assembly 101. Thehydraulic pump 104 may transfer energy from the engine 107 to the hoseassembly 101. The hose assembly 101 may be incorporated into at leastone of the axles 109 of the vehicle 101.

Referring now to FIG. 2, the hose assembly 101 may comprise at least onehigh pressure reservoir 202 disposed within a low pressure reservoir201. The low pressure reservoir 201 may comprise an elastic tube 205disposed intermediate a front mandrel 203 and a rear mandrel 206. Aclamping mechanism 204 may be utilized to connect the elastic tube 205to the front mandrel 203 and to the rear mandrel 206. The front mandrel203 may comprise a low pressure port 207 adapted to allow hydraulicfluid 313 to enter and exit the low pressure reservoir 201. The frontmandrel 203 may comprise a high pressure port 208 adapted to allowhydraulic fluid 313 to enter and exit the high pressure reservoir 202.When the hydraulic fluid 313 is expelled from the high pressurereservoir 202 and enters the low pressure reservoir 201 the elastic tube205 may expand radially to accommodate the hydraulic fluid 313. The tube205 may store the hydraulic fluid 313 at a pressure of 190 psi to 300psi. The tube 205 may comprise a material selected from the groupconsisting of composite material, Kevlar, polyurethane, polyethylene,Twaron, aramid fiber, nylon, rubber, carbon, synthetic polymers,chloroprene, elastomers, polyester, silicone rubber, rubber foam, carbonfiber, glass fiber, cloth or a combination thereof. The tube 205 mayhave a modulus of elasticity of rubber.

The tube 205 may have a diameter of 8 inches to 15 inches. The diameterof the tube 205 may be approximately ten times larger than a diameter ofthe high pressure reservoir 202. The tube 205 may be rigid.

Referring now to FIG. 3, the front mandrel 203 may comprise a corrugatedsurface 314 to enhance the connection between the front mandrel 203 withthe elastic tube 205. The rear mandrel 206 may comprise a corrugatedsurface 314 to enhance the connection between the rear mandrel 206 withthe elastic tube 205.

The high pressure reservoir 202 may be adapted to store at least 50 footpounds of energy. The at least one high pressure reservoir 202 maycomprise a radial tensioning component 301 disposed within a hose 302.The radial tensioning component 301 may comprise a rigid perforated pipe301. A material of the hose 302 may store at least 85% of the energy. Atleast 10% of the energy may be stored in the compressible hydraulicfluid 313. The hose 302 may have an outer diameter of 0.9 to 1.75 inchesbefore pressurization. The hose 302 may be inflated with hydraulic fluidto over 1,000 psi. The hose 302 may be inflated with hydraulic fluid toover 6,000 psi.

The hose 302 may comprise an elastic inner layer 303 pre-tensioned bythe radial tensioning component 301. The inner layer 303 may comprise amaterial selected from the group consisting of composite material,Kevlar, polyurethane, polyethylene, Twaron, aramid fiber, nylon, rubber,carbon, synthetic polymers, chloroprene, elastomers, polyester, siliconerubber, rubber foam, carbon fiber, glass fiber, cloth or a combinationthereof.

At least one reinforcing layer of elastic thread 304 may be disposedaround and compressing the inner layer 303. The at least one reinforcinglayer of elastic thread 304 may comprise a total thickness of thethread. Preferably the at least one reinforcing layer of elastic thread304 may comprise a total thickness of ten times the thickness of thethread. The elastic thread may have a modulus of elasticity of rubber.The at least one reinforcing layer 304 may comprise a material selectedfrom the group consisting of composite material, polyurethane,polyethylene, rubber, synthetic polymers, chloroprene, elastomers,silicone rubber, rubber foam, or a combination thereof. The at least onereinforcing layer 304 may be covered by an elastic layer 305 that mayprovide protection to the reinforcing layer 304.

Both the ends of the hose 302 and the ends of the radial tensioningcomponent 301 may be connected via couplings 306 to the front mandrel203 and the rear mandrel 206 disposing the hose 302 and the radialtensioning component 301 intermediate the front mandrel 203 and the rearmandrel 206. The radial tensioning component 301 may be connected to thecouplings 306 by a right-handed threaded connection 311 or by aleft-handed threaded connection 311. The couplings 306 may be connectedto the front mandrel 203 or the rear mandrel 206 by a right-handedthreaded connection 310 or by a left-handed threaded connection 310.

O-rings 308 may be disposed intermediate the radial tensioning component301 and the couplings 306. An o-ring 308 may be disposed intermediatethe coupling 306 and the front mandrel 203 to help prevent hydraulicfluid 313 from leaking out of the high pressure reservoir 202 to the lowpressure reservoir 201. An o-ring 308 may be disposed intermediate thecoupling 306 and the rear mandrel 206 to help prevent hydraulic fluid313 from leaking out of the high pressure reservoir 202 to the lowpressure reservoir 201.

Fittings 307 may be disposed around the connection between the couplings306 and the hose 302. The fittings 307 may apply pressure on the ends ofthe hose 302 causing the ends of the hose 302 to be pinched between thefittings 307 and the radial tensioning component 301. The fittings 307may expand in diameter as the fittings 307 extend away from thecouplings 306. It is believed that the expansion in diameter in thefittings 307 will accommodate the hose 302 as the hose 302 expands indiameter when hydraulic fluid 313 is pumped into the high pressurereservoir 202 from the low pressure reservoir 201.

Referring to FIGS. 4 through 5, the reinforcing layer 304 may compriseelastic thread that is interwoven, wrapped, braided and/or combinationsthereof. It is believed that braiding or interweaving the elastic threadmay give the reinforcing layer 304 added strength and may prevent theinner elastic layer 303 from bulging through the reinforcing layer 304as the hose 302 expands in diameter with the inflow of hydraulic fluid313 into the high pressure reservoir 202. The hose 302 may comprisemultiple reinforcing layers 304 such as the embodiment disclosed in FIG.4.

FIG. 6 discloses another embodiment of the present invention wherein thereinforcing layer 304 may comprise layers of thread that differ one fromthe other in wrapping style. At least two of the differing layers may bewrapped in directions that oppose one 601 another 602. The thread may bewrapped at an angle.

The radial tensioning component 301 may comprise a spring 301. FIG. 7discloses another embodiment of the present invention wherein the radialtensioning component 301 may comprise a frame 301.

Referring now to FIG. 8, a compressible element 801 may be disposedwithin the hose. It is believed that the compressible element 801 mayassist the hose 302 in storing energy when the high pressure reservoir202 is pressurized. At least 15% of the energy may be stored in thecompressible element 801.

Referring now to FIG. 9, the radial tensioning component 301 may besegmented. It is believed that the segmented radial tensioning component301 may facilitate the assembly process of the hose assembly 101.

The high pressure reservoir 202 may comprise a rounded end 1002 such asin the embodiment disclosed in FIG. 10. The rear mandrel 206 may have arecess 1001 adapted to receive the rounded end 1002 of the high pressurereservoir 202. The recess 1001 may be large enough to permit the hose302 portion of the round end 1002 to expand within the recess when thehigh pressure reservoir 202 is pressurized.

Referring now to FIG. 11, the high pressure reservoir 202 may bedisposed outside the low pressure system 201. The high pressurereservoir 202 and the low pressure reservoir 201 may be incorporatedinto the frame 108 of the vehicle 100 such as the embodiment disclosedin FIG. 12.

Whereas the present invention has been described in particular relationto the drawings attached hereto, it should be understood that other andfurther modifications apart from those shown or suggested herein, may bemade within the scope and spirit of the present invention.

1. A system for performing work, comprising: a hydraulic circuit adaptedto store energy within a hose; the hose comprising an elastic innerlayer pre-tensioned by a radial tensioning component disposed within thehose; at least one reinforcing layer of elastic thread disposed aroundand compressing the inner layer; a hydraulic fluid in the circuit incommunication with the hose, the radial tensioning component and with ahydraulic actuator for doing the work; and a mechanism for pressurizingthe hydraulic circuit in order to perform the work; wherein the hose isinflated with hydraulic fluid to over 1,000 psi.
 2. The system of claim1, wherein the at least one reinforcing layer of elastic threadcomprises a total thickness of the thread.
 3. The system of claim 1,wherein the at least one reinforcing layer of elastic thread comprises atotal thickness of at least ten times the thickness of the thread. 4.The system of claim 1, wherein the elastic thread is braided,interwoven, wrapped and/or combinations thereof.
 5. The system of claim1, wherein the elastic thread has a modulus of elasticity of rubber. 6.The system of claim 1, wherein the at least one reinforcing layercomprises a material selected from the group consisting of compositematerial, polyurethane, polyethylene, rubber, synthetic polymers,chloroprene, elastomers, silicone rubber, rubber foam, or a combinationthereof.
 7. The system of claim 1, wherein the inner layer comprises amaterial selected from the group consisting of composite material,Kevlar, polyurethane, polyethylene, Twaron, aramid fiber, nylon, rubber,carbon, synthetic polymers, chloroprene, elastomers, polyester, siliconerubber, rubber foam, carbon fiber, glass fiber, cloth or a combinationthereof.
 8. The system of claim 1, wherein the radial tensioningcomponent is segmented.
 9. The system of claim 1, wherein the radialtensioning component comprises a perforated pipe.
 10. The system ofclaim 1, wherein the radial tensioning component comprises a spring, aframe, or combinations thereof.
 11. The system of claim 1, wherein thehydraulic circuit is adapted to store at least 50 foot pounds of energywithin the hose.
 12. The system of claim 1, wherein a material of thehose stores at least 85% of the energy.
 13. The system of claim 1,wherein the hydraulic fluid is compressible.
 14. The system of claim 13,wherein at least 10% of the energy is stored in the hydraulic fluid. 15.The system of claim 1, wherein the hose is inflated with hydraulic fluidto over 6,000 psi.
 16. The system of claim 1, wherein the hose andradial tensioning component are enclosed within a low pressure reservoirof the hydraulic circuit.
 17. The system of claim 1, wherein the hosehas an outer diameter of 0.9 to 1.75 inches.
 18. The system of claim 1,wherein the system is incorporated in an automobile, golf cart, a truck,an elevator, backhoe, bulldozer, trencher, milling machine, a boat,construction equipment, or a combination thereof.